Sunday, March 7, 2010
Group Project
EMILIO Famy AGUINALDO
Philippine Republic Term: 1898- 1901
MANUEL LUIS Molina QUEZON
Term: November 15, 1935- August 1, 1944
SERGIO Suico OSMEÑA
Term of Office: August 1, 1944- May 27, 1946
JOSE PACIANO Garcia LAUREL
Term: October 14, 1943- August 15, 1945
MANUEL Acuna ROXAS
Term: July 4, 1946- April 15, 1948
RAMON del Fierro MAGSAYSAY
Term: December 30, 1953- March 17, 1957
ELPIDIO Rivera QUIRINO
Term: April 17, 1948- November 10, 1953
DIOSDADO Pangan MACAPAGAL
Term: December 30, 1961 - December 30, 1965
CARLOS Polistico GARCIA
Term: March 18, 1957- December 30, 1961
FERDINAND EMMANUEL Edralin MARCOS
Term: June 30, 1981 - February 25,1986
MARIA CORAZON Cojuangco AQUINO
Term: February 25, 1986- June 30, 1992
FIDEL Valdez. RAMOS
Term- June 30, 1992 - June 30, 1998
JOSE Marcelo EJERCITO (ESTRADA)
Term- 1998 - 2001
MARIA GLORIA Macaraeg MACAPAGAL-ARROYO
Term- 2001 - Present
It reminds us how we gained our independence from Spanish Colonization, American and Japanese occupation thus marking the beginning of a new era of history in our country. Today with the new set of Presidentiables, we us younger generation can hope for a brighter, more responsible and progressive Philippines in the future.
And now the 2010 Presidentiables...
Benigno Noynoy Aquino III
Manny Villar
Joseph Estrada
Gilbert Teodoro
and among others....
Computer History
Brief Computer History
In 1640, Blaise Pascal, a French mathematician, constructed the first mechanical machine that performs basic functions such as addition, subtraction, multiplication and division. The programming language Pascal was named after him. In 1804 an automated punched card was introduced by Charles Babbage, it has a mechanical memory to store the results of calculations. It as later improved by Augusta Ada using a binary system which refined the designs of automatic repetition of series of calculations-the loop. In 1850 George Boyle developed binary numbering system and Boolean Logic became fundamental to the design of computer circuitry.
In 19th century, the world’s first general-purpose electronic digital computer known as ABC was built by John Atanasoff and Clifford Berry. Mainframe computers were introduced and series of IBM System/360 family. Improvements continued from vacuum-tube technology to resistors, capacitors and transistors to integrated circuits then to microprocessor which can store gigabytes of memory and managed to integrate most complex arithmetic and logic functions. Computers continuously decreased in size and increased in power and performance.
Computer Generations
First Generation: 1951 to 1959
First generation computers were powered by vacuum tubes, they were extremely large machines, occupying huge rooms and consuming vast amounts of energy.
Second Generation: 1959 to 1965
Second generation computer took advantage of semiconductor technology which meant that transistors replaced the vacuum tubes. This resulted in reduced physical size, faster computing and greater power. The transistor was initially developed by US corporation, Bell Laboratories.
Third Generation: 1965 to 1971
Third generation computers were made from integrated circuits, again reducing size, faster computing and much greater power. Integrated circuits consisted of a piece of silicon about 10mm square on which up to thousands of transistors could be placed. Magnetic discs were improved, greatly increasing storage capacity. .Monitors and keyboards were introduced and operating system was first adopted. Families of computers which allowed upgrading and expansion was also developed.
Forth Generation: 1971 to present
From integrated circuits to large scale to very large scale integration; this was the start of the microprocessor age which continued to improve from 8086, 80286 to 80486, then to Pentium 1 to Pentium3.
In 1640, Blaise Pascal, a French mathematician, constructed the first mechanical machine that performs basic functions such as addition, subtraction, multiplication and division. The programming language Pascal was named after him. In 1804 an automated punched card was introduced by Charles Babbage, it has a mechanical memory to store the results of calculations. It as later improved by Augusta Ada using a binary system which refined the designs of automatic repetition of series of calculations-the loop. In 1850 George Boyle developed binary numbering system and Boolean Logic became fundamental to the design of computer circuitry.
In 19th century, the world’s first general-purpose electronic digital computer known as ABC was built by John Atanasoff and Clifford Berry. Mainframe computers were introduced and series of IBM System/360 family. Improvements continued from vacuum-tube technology to resistors, capacitors and transistors to integrated circuits then to microprocessor which can store gigabytes of memory and managed to integrate most complex arithmetic and logic functions. Computers continuously decreased in size and increased in power and performance.
Computer Generations
First Generation: 1951 to 1959
First generation computers were powered by vacuum tubes, they were extremely large machines, occupying huge rooms and consuming vast amounts of energy.
Second Generation: 1959 to 1965
Second generation computer took advantage of semiconductor technology which meant that transistors replaced the vacuum tubes. This resulted in reduced physical size, faster computing and greater power. The transistor was initially developed by US corporation, Bell Laboratories.
Third Generation: 1965 to 1971
Third generation computers were made from integrated circuits, again reducing size, faster computing and much greater power. Integrated circuits consisted of a piece of silicon about 10mm square on which up to thousands of transistors could be placed. Magnetic discs were improved, greatly increasing storage capacity. .Monitors and keyboards were introduced and operating system was first adopted. Families of computers which allowed upgrading and expansion was also developed.
Forth Generation: 1971 to present
From integrated circuits to large scale to very large scale integration; this was the start of the microprocessor age which continued to improve from 8086, 80286 to 80486, then to Pentium 1 to Pentium3.
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